Debate over a flower's anatomy

Debate over a flower's anatomy

Debate over a flower's anatomy

An ambitious effort to reconstruct the world's first flower has seeded a debate over what forms a blossom can and cannot take. The project, called eFLOWER, combined an unparalleled database of plant traits, reams of molecular data on evolutionary relationships and complex statistical models to determine what the ancestor of all modern flowering plants might have looked like. When its results were published in August 2017, they drew intense interest from academics and the media.

But since then, researchers have raised questions about some of eFLOWER's predictions. On January 31, plant morphologist Dmitry Sokoloff of Moscow State University, Russia and his colleagues published a re-analysis of the data that suggests a different arrangement of key female reproductive structures in the first flower. The debate centres on the finer points of flower architecture, but points to a broader concern about using statistical models and large data sets to tackle biological questions, says Pamela Soltis, a plant biologist at the University of Florida, USA.

Flowering plants are a remarkable evolutionary success. Although they appeared as recently as 140 million years ago - about 200 million years after the first seed plants - they now make up about 90% of all living land plants. But fossil flowers are scarce, and botanists have long speculated about what the first blooms might have looked like. "The flower was responsible for this massive diversification," says Pamela. "We can't understand how we got to where we are without understanding what the first one was like."

About eight years ago, the eFLOWER project enlisted a team of botanical experts to find out. The team catalogued more than 20 traits in nearly 800 species. They then matched this data with molecular studies of evolutionary relationships, and used statistical modelling to infer the features of the earliest flower.

Concentric circles

The results painted a picture of a flower that was symmetric around a central axis and contained both male and female sex organs. The eFLOWER models also suggested that many organs in the first flower were whorled, meaning they were arranged in concentric circles. But the authors also warned that statistical support for some of these findings was weak. Even so, the idea of a whorled ancestral flower shocked some people, says Hervé Sauquet, a lead author on the eFLOWER paper. Many plant scientists expected that the bloom's organs would have been arrayed in a 3D spiral.

But what puzzled Dmitry was that in Hervé's analysis, the flower's petals and male reproductive parts were arranged in whorls, yet the female reproductive organs called carpels were arranged in a spiral. He had never seen this combination of whorled and spiral organs in a single flower. Moreover, he and his colleagues suggest that it might not be developmentally possible for plants to achieve two different arrangements of organs in the same flower. That's because the organs emerge from the same region of the plant, Dmitry says.

Analysis unfolds

Herv says that his team has since revisited those data and agreed with some, although not all, of Dmitry's concerns. Repeating their analysis with an updated and expanded data set, they now find that all reproductive organs in the ancestral flower were probably whorled, he says. But some of the revised results had a relatively low degree of statistical support, just as the first analysis did. "It wasn't certain before, and it remains uncertain," Hervé says. "We don't know the final answer yet."

Dmitry says that a fundamental problem of eFLOWER's approach was evaluating each trait of a flower independently before assembling those traits into a coherent bloom. "They analysed the evolution of each character separately," he says. "But some combinations of characters are impossible."

Settling the debate over the first flower will take a bigger database and more sophisticated models, says Wenheng Zhang, who studies plant evolution at Virginia Commonwealth University, USA. But the eFLOWER effort is an example of how modern techniques can be married to classical morphology to tackle fundamental questions about plant origins, she says.

The New York Times

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